Epigenetics Flashcards
1
Q
Epigenetics is:
A
- Heritable changes in gene function that occur without a change in the DNA sequence
2
Q
Three ways to epigenetically alter gene expression:
A
- DNA methylation
- histone modification
- noncoding RNA
3
Q
DNA methylation:
A
- hypermethylation blocks transcription
- occurs before the promoter
- specifically, hypermethylation of CpG islands
4
Q
CpG Islands:
A
- repeating CG base pairs (1/10bp)
- usually are in the promoter of a gene
- C can be methylated to block gene expression
5
Q
dMTase:
(demethylase)
A
- eraser enzyme that removes methylated groups from DNA.
6
Q
DNMT 3a/3b:
(DNA methyltransferase 3a/3b)
A
- writer enzyme that adds methyl groups to DNA (de novo methylation).
7
Q
DNMT 1:
(DNA methyltransferase 1)
A
- enzyme important for methylation maintenance.
8
Q
MeCP2:
A
- binds to a methylated DNA and blocks transcription of a gene that should be silenced.
- If a mutation in MeCP2, MeCP2 cannot bind to a specific DNA methylation, silenced gene is expressed.
9
Q
Imprinted genes play vital roles in:
A
- embryonic growth, neonatal behavior, tissue and developmental stages.
10
Q
HATs:
A
- acetylate histone tails causing unwinding of chromatin, making it more relaxed and accessible to transcription.
- transcription occurs.
11
Q
HDACs:
A
- Deacteylate histone tails
- results in a compact chromatin structure and silencing of transcription.
12
Q
Euchromatin methylation/acetylation pattern:
A
- high histone acetylation, low DNA methylation
13
Q
Heterochromatin methylation/acetylation pattern:
A
- low histone acetylation, dense DNA methylation,
14
Q
Xist:
A
Xist DEACTIVATES X CHROMOSOME
- non-coding RNA that hyperacetylates and inactivates the X chromosome
15
Q
Tsix:
A
Tsix ACTIVATES X CHROMOSOME
- a noncoding RNA that inactivates Xist
- is anti-sense to Xist
- X chromosome becomes ACTIVE
